Robert Abbas scite author profile

Abstract:As the world is on the verge of venturing into fifth-generation communication technology and embracing concepts such as virtualization and cloudification, the most crucial aspect remains "security", as more and more data get attached to the internet. This paper reflects a model designed to measure the various parameters of data in a network such as accuracy, precision, confusion matrix, and others. XGBoost is employed on the NSL-KDD (network socket layer-knowledge discovery in databases) dataset to get the desired results. The whole motive is to learn about the integrity of data and have a higher accuracy in the prediction of data. By doing so, the amount of mischievous data floating in a network can be minimized, making the network a secure place to share information. The more secure a network is, the fewer situations where data is hacked or modified. By changing various parameters of the model, future research can be done to get the most out of the data entering and leaving a network. The most important player in the network is data, and getting to know it more closely and precisely is half the work done. Studying data in a network and analyzing the pattern and volume of data leads to the emergence of a solid Intrusion Detection System (IDS), that keeps the network healthy and a safe place to share confidential information.

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Attacks and defences on intelligent connected vehicles: a survey

Dibaei

Zheng

Jiang

et al. 2020

Digital Communications and Networks

163

100

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6G White Paper on Machine Learning in Wireless Communication Networks

Ali¹,

Saad²,

Rajatheva³

et al. 2020

Preprint

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Security and reliability performance analysis for two‐way wireless energy harvesting based untrusted relaying with cooperative jamming

Mamaghani

Abbas

2019

IET Communications

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Machine-Learning-Enabled Intrusion Detection System for Cellular Connected UAV Networks

et al. 2021

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The recent development and adoption of unmanned aerial vehicles (UAVs) is due to its wide variety of applications in public and private sector from parcel delivery to wildlife conservation. The integration of UAVs, 5G, and satellite technologies has prompted telecommunication networks to evolve to provide higher-quality and more stable service to remote areas. However, security concerns with UAVs are growing as UAV nodes are becoming attractive targets for cyberattacks due to enormously growing volumes and poor and weak inbuilt security. In this paper, we propose a UAV- and satellite-based 5G-network security model that can harness machine learning to effectively detect of vulnerabilities and cyberattacks. The solution is divided into two main parts: the model creation for intrusion detection using various machine learning (ML) algorithms and the implementation of ML-based model into terrestrial or satellite gateways. The system identifies various attack types using realistic CSE-CIC IDS-2018 network datasets published by Canadian Establishment for Cybersecurity (CIC). It consists of seven different types of new and contemporary attack types. This paper demonstrates that ML algorithms can be used to classify benign or malicious packets in UAV networks to enhance security. Finally, the tested ML algorithms are compared for effectiveness in terms of accuracy rate, precision, recall, F1-score, and false-negative rate. The decision tree algorithm performed well by obtaining a maximum accuracy rate of 99.99% and a minimum false negative rate of 0% in detecting various attacks as compared to all other types of ML classifiers.

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Robert Abbas

Effective Intrusion Detection System Using XGBoost

Attacks and defences on intelligent connected vehicles: a survey

6G White Paper on Machine Learning in Wireless Communication Networks

Security and reliability performance analysis for two‐way wireless energy harvesting based untrusted relaying with cooperative jamming

Machine-Learning-Enabled Intrusion Detection System for Cellular Connected UAV Networks

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